JPH0216210A - Method and device for manufacturing water building such as landing bridge, jetty and similar article - Google Patents

Abstract

PURPOSE: To easily make a hollow pillar of large size by partially setting a floating apparatus on a water bottom, adding a hollow column additional part thereon, and further successively adding hollow columns in the deeper positions to construct a hollow column of a desired height, and setting the resulting column on the bottom of a desired place. CONSTITUTION: This waterborne structure producing device comprises floating apparatuses 1, 2, a part 5 corresponding to the lower end of a hollow column having a buoyancy, the part 5 being housed in the recessed part provided between the floating apparatuses, and columnar component producing facilities on the floating devices. This device is towed to a place with shallow water, and a hollow column additional part is added onto the hollow column lower end corresponding part 5 in the state where the device body is set on the water bottom. After the device is moved to a place with deeper water by the addition height of the hollow column, the hollow column part 5 and the additional part are made to rest on the bottom, and a hollow column is then further added thereon. This procedure is repeated to make a column of a desired height, and the resulting column is set on the bottom of a desired place.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a method for fabricating floating structures such as piers, jetties, storage sheds, etc. by placing double-walled hollow columns on the water bottom. And in this case, the base part of the hollow column is wider than the part rising from the base part, and the hollow wall of the hollow column is filled with fixing material, such as concrete, during or after its positioning, and the hollow column is filled with a fixing material such as concrete. The column is placed on the bottom of the water from a flotation device.

The outline of the present invention is as follows. The invention relates to a method and flotation device (1, 2, 18) for the fabrication of columnar components (16 and 17) forming part of a pier, jetty or similar floating construction. In this case, when the flotation device is on the bottom (15), the first part (16) is fabricated on the support (5) attached to the flotation device, and the flotation device is separated from the bottom and floats. After moving to a deeper water depth, the first part (16) returns to the bottom (
15) To be lowered onto the top. The next part (17) is made deeper, and this is lowered again until it reaches the bottom, after which the fire part is made. This is repeated until the final height and destination is reached.

The flotation device of the present invention comprises all devices (10,
11, 14), and has a structure that can be separated from the completed construction.

Published international patent application WO 37103026 describes the production of double-walled hollow columns of polygonal cross-section with sharp bottom edges and a wide base with a polygonal horizontal cross-section. The bottom tapers upwardly into a narrow central section, which is connected by a top piece. The pillars can be moved to the desired location by a flotation device, such as a barge equipped with a crane, and lowered there, where the hollow walls can be filled with concrete and fixed to the bottom of the water. This fixation is obtained by placing the column at a sufficient depth on the water bed with the aid of gravity and excavation means.

This hollow column is made from parts that have been pre-assembled near the location where the work is to be carried out, for example on a river bank. These parts are connected together in the field by connection means such as bolts and welds.

This pillar principle, which is known per se and has already been tried in the construction of jetties and dams, is a relatively economical method of construction.

However, fabricating these columns on the riverbank poses problems when large-scale construction projects with large horizontal and vertical dimensions are to be competed.

This also applies when the finished column is placed on a flotation device and the column is then lowered to the bottom of the water.

The aim of the invention is to provide a simple process by means of which columns can be manufactured and installed in a relatively inexpensive manner even in the case of large dimensions.

For this purpose, the flotation device used is a platform completely designed as a working shop with adjustable buoyancy and a bottom edge or base that can be placed on the bottom; Placement; the first part, such as the base part of the column, is then made on a temporary support, which supports an opening or recess in the platform designed to allow the platform to move away from the prepared column. After the fabrication of the first part of the column, the platform is moved to a deeper part and the already fabricated part of the column is placed on the bottom of the water; all of these This is done so that the top of the column is accessible from the deck of the plant form; if the other parts of the column are attached together and this is not the last part, the platform is again moved to a deeper part and the column is Further lowering, the already completed part of the column is always lifted first and moved down by adjusting the buoyancy of the platform; once the column is completed, the column may or may not be filled with concrete, but the column may be placed on the platform. The column is then lifted up again and moved to its destination, where it is finally lowered and secured.

The principle of the invention is as follows. It begins with the construction of a column on a plastic foam that is designed as a pontoon boat and has adjustable buoyancy. This pontoon boat can be used with or without the conventionally known built-in support legs.
The pontoon boat is set on a riverbank with high water level or near the riverbank, and the buoyancy is reduced to allow the pontoon boat to land on the bottom of the water. Once the first part has been fabricated, taking advantage of the fact that supply from the riverbank is still available, the pontoon boat is moved a little deeper and the already completed part of the column is placed on the bottom.

The next part of the column is then made on top of the already completed part, and the resulting part of the column is connected to a pontoon boat and lifted by slightly increasing the buoyancy of the pontoon boat and transported to the next point, The column is then lowered there again, for example to fabricate the remaining part.

When creating a pillar using this method, the pillar stands at a different bottom position than its destination. The columns can then be filled with concrete depending on whether it is desired or not. The advantage gained during further fabrication of the column is that when the pontoon boat leaves the river bank with the partially completed column, the column already standing on the bottom allows further fabrication work to be carried out on the column. Despite the fact that it forms a fixed point.

Once the column is completed and the pontoon boat is lowered a little, the pontoon boat is reconnected to the column, increasing its buoyancy to lift the column and transport it to its destination, where final positioning and fixing is performed by the pontoon boat. I can do it. At this time the column is still surrounded by an opening or recess in the pontoon. The pontoon vessel may not leave until this work is completed and the opening or recess is opened.

The platform for carrying out the process of the invention according to a first embodiment consists of a flat-bottomed vessel having, in the region of at least one of its sides, a recess that is open towards said side;
There are means for temporarily supporting the first portion of the column fabricated in or near the recess. In this embodiment, the side recesses are always open, so that separation of the pontoon and the column is possible at any time.

However, such pontoons have somewhat limited working area to be fully equipped to perform all tasks. The pontoon vessel shall have a concrete channel, a concrete station with raw materials for concrete such as water, sand and gravel, a mobile crane, and a generator to power the positioning equipment, e.g. pumps, etc. No.

A further embodiment of the platform according to the invention consists of two pontoons which are releasably coupled to each other and which in the coupled state form a continuous working deck and which can be opened after the pontoons are uncoupled and separated. A recess is formed near the partial surface and the first column of the column to be fabricated in or near it.
There is a means to temporarily support this part. When two pontoons are connected, this embodiment has a large continuous working area and the column to be fabricated can be approached from any direction.

During the manufacture of the column, in particular during the manufacture of the base part, the openings or recesses may be closed by removable covers, support bars and the like. If this part is to be lowered through a recess or opening, a working crane (preferably a portal crane) is used and, after removing the cover from the opening or recess, the column part is lifted up by the working crane. , then lowered.

However, according to the invention, it is preferred that the means for temporarily supporting the first part of the column produced consist of a body with adjustable buoyancy that closes the opening or recess. The body is removably connected to both or one of the pontoons and its top deck is flush with or at the same height as the deck of the pontoon.

After fabrication of the base part of the column, this body is lowered below the pontoon vessel, the completed column part is removed by means of a lifting device, this body is removed, and the column part is suspended until it is placed on the bottom of the water. It can be lowered further.

However, it is also possible to lower the prepared column part together with this body and place it together on the bottom of the water.

After completion of the next column section, the column is lifted from the body resting on the water bottom by means of a pontoon boat and moved to another location where the completed column section is lowered to the water bottom. The body is then given greater buoyancy and can be recovered and reused.

One possibility is to leave the main body under the pillar until the pillar is completed. The height of the columns is always increased in stages, and at the same time the columns are always placed on the bottom of the water and always filled with concrete, so that due to their weight the columns can form a fixed place for floating pontoons used as working factories. is important.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The device shown in FIG. 1 consists of a pontoon boat having parts l and 2. These parts are attached to each other along line 3 by removable fastening means (not shown). When both are connected, these pontoon parts l and 2 surround the recess 4. The recess 4 is partly inside the pontoon boat 1 and partly inside the pontoon boat 2. When these two parts l and 2 are separated, the recess is opened.

This recess accommodates a third buoyant body 5, the top surface 6 of which is essentially flush with the deck 7 of the two pontoons l and 2.

The deck has rails 8.9 for a diagrammatically shown bridge or gantry crane 10, which crane is equipped with a moving trolley 11 having hoisting means 12. The deck accommodates all other necessary equipment, indicated by a rectangle 13, and a concrete mixer 14, shown diagrammatically.

At the beginning of the column fabrication, the pontoon vessel L 2.5 is placed on the bottom 15, either directly or by means of support legs as shown diagrammatically in FIG.
placed on top. Next, the first part 16 of the column to be fabricated is fabricated or placed on the body 5. The platform is then raised to the surface and transported to another location using increased buoyancy or the tides, as schematically shown in FIG. The buoyancy of section 5 is then reduced, so that section 5 sinks, reaching e.g. 15" of water bottom. However, the upper side of column 16, which has already been made, is approximately at the level of deck 7, so that the next column A section I7 can be produced or installed at the top of this section.

There are various possibilities after this.

Section 5 was removed and the column was lowered to the bottom 15" by crane means.
You can put it on top.

Also, in order to place the next part at the top of the pillar, it is possible to move the pillar a little deeper and lower the pillar further.

After the column is completed, typically after filling the hollow wall with concrete, the pontoon vessel is first brought to a low floating level, then the column and the pontoon vessel are connected, and then the buoyancy of the pontoon vessel is used to lift it up. This allows you to lift the pillar. The column is then transported to its destination and lowered with the aid of a crane or a combination of crane and buoyancy reduction.

Once the column reaches the bottom, it must penetrate sufficiently deep into the bottom. This operation can also be carried out from the platform via the interior of the column, ie via an opening inside the inner wall of the hollow wall.

When the column is finally positioned, parts l and 2 of the pontoon are separated and separated from each other, and then the pontoon is returned to the riverbank for the next column to be made.

If you have to position a series of columns,
A hinged parallelogram device as described in the published international patent application
ogram) can be used to place these columns at the correct distance from each other. This frame can connect the pontoon to the existing columns. This frame can also be pre-attached to an already positioned column to provide buoyancy at its free end, so that the frame can be connected to a new column as soon as it is replaced with the platform.

In the embodiment of FIGS. 5-7, there is a pontoon boat 18 with an adjustable buoyancy body 20 (
It has a recess 9 for accommodating the body.

The deck of the pontoon boat is equipped with equipment similar to that shown in the embodiment of FIGS. 1-4, although only the rails 8 and 9 are not shown. The embodiment of FIGS. 5-7 includes puppy legs 21 placed near the corners of the pontoon boat. These legs allow the pontoon boat to be placed horizontally even on sloping or uneven surfaces near the riverbank.

On top of that, in order to manufacture the first pillar part, the main body 2 is
0 is used, and this column section is lowered by means of a body 20 above the water bottom 15' as shown in FIG. Following this, the second part of the column is placed or fabricated on top of the first part in the same manner as described in the embodiment of FIGS. 1-4.

Once the pillar is completed, it can be floated to its destination with the aid of a pontoon boat 18. Since the recess 19 is open, the pontoon boat can be moved away immediately once the positioning is completed.

The main features and aspects of the invention are as follows.

(1) A pier by placing a double-walled hollow column on the water bottom;
A method of fabricating a floating structure such as a jetty, a storage facility, etc., wherein the base of the hollow column is wider than the portion rising from the base, and the hollow wall of the hollow column has its During or after positioning, a fixing material such as concrete is filled and the hollow column is placed on the bottom from a flotation device: The flotation device used has an adjustable buoyancy and a bottom edge or bottom surface that can be placed on the bottom. A platform completely designed as a preparation workshop; the plant form is placed on a shallow water bottom during the initial stage of column fabrication, and then the first part, such as the base of the column, is built on a temporary support. , in this case this support is located next to an opening or recess in the platform designed to allow the platform to move away from the prepared column: after the fabrication of the first part of the column the platform is moved deeper. section and place the already fabricated section of the column on the bottom;
This is done in such a way that it is accessible from the deck of the platform, and if the other parts of the column are installed together and this is not the last part, the platform is moved again to a deeper part, the column is lowered further, and the column is The already completed part of the column is always raised first by adjusting the buoyancy of the platform and then lowered after the movement, and when the column is completed, the column may or may not be filled with concrete, but the column is lifted again by means of the platform for the purpose A method of manufacturing a floating construction, which is characterized by moving to the ground and finally lowering and fixing the pillars there.

(2) having a recess opening facing the side in the region of at least one side, and temporarily preventing the first portion of the column manufactured within or near the recess; Platform for carrying out the method according to item 1 above, characterized in that it consists of a pontoon vessel with means of support.

(3) Columns that are separably connected to each other and form a continuous working deck in the connected state, further forming a recess that opens after being uncoupled and separated, and that are manufactured in or near the recess. A platform for carrying out the method according to claim 1, characterized in that it consists of two pontoon boats with means for temporarily supporting the first part of the platform.

(4) The means for temporarily supporting the first part of the pillar to be manufactured is comprised of a main body that closes an opening or a recess and has adjustable buoyancy. platform.

[Brief explanation of the drawing]

1 is a plan view of an embodiment of the device according to the invention for using the method according to the invention; FIG. 2 is a top view of the line II of FIG.
3 is a cross-sectional view taken along the line lll-l11 of FIG.
4 is a detailed illustration of the invention, FIG. 5 is a schematic top view of another embodiment of the invention, and FIG. 6 is a diagrammatic view of the device of FIG. 5. FIG. 7 is a diagrammatic side view, and FIG. 7 shows the apparatus of FIGS. 5 and 6 in another state for illustrating the method according to the invention. 1.2... part of the pontoon boat, 4... recess,
5.20...Main body, 7.19...Deck, lO...Crane, 12...Hoist means, 13...Other necessary Equipment, 14...
...Concrete mixer 15.15' ...
...bottom of the water, 16...first part of the pillar, 17...
...Next pillar part, 18...flat bottom boat.

Claims (3)

[Claims] (1) A method of manufacturing floating structures such as piers, jetties, storage facilities, etc. by placing double-walled hollow columns on the water bottom, in which the base of the hollow column rises from the base. wider than the raised part, and the hollow wall of the hollow column is filled with fixing material, such as concrete, during or after its positioning, and the hollow column is placed on the bottom from a flotation device; A flotation device is a platform completely designed as a working factory with adjustable buoyancy and a bottom edge or base that can be placed on the bottom of the water; the platform is placed on a shallow water bottom at the beginning of column fabrication and then placed on the base of the column. A first part such as a section is made on a temporary support, in which case this support is located next to an opening or recess in the platform designed to allow the platform to move away from the prepared column. After the fabrication of the first part of the column the platform is moved to a deeper part and the already fabricated part of the column is placed on the bottom of the water; all of these are placed on top of the already finished part of the column. is accessible from the deck of the platform, the other parts of the column are subsequently installed, and if this is not the last part, the platform is again moved to a deeper part and the column further lowered. , the already completed part of the column is always lifted up first by adjustment of the buoyancy of the platform and lowered after the movement, and when the column is completed, the column may or may not be filled with concrete, but the column is moved by means of the platform. A method for manufacturing a floating structure, characterized by lifting the column again and moving it to a destination, where the column is finally lowered and fixed. (2) having a recess opening facing the side in the region of at least one side, and temporarily preventing the first portion of the column manufactured within or near the recess; Platform for carrying out the method according to claim 1, characterized in that it consists of a pontoon boat with means of support. (3) Columns that are separably connected to each other and form a continuous working deck in the connected state and further form a recess that opens after being uncoupled and separated, and that are fabricated in or near the recess. Platform for implementing the method according to claim 1, characterized in that it consists of two pontoon boats with means for temporarily supporting a first part of the platform.